mirror of
https://github.com/f4exb/sdrangel.git
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387 lines
18 KiB
C++
387 lines
18 KiB
C++
///////////////////////////////////////////////////////////////////////////////////
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// Copyright (C) 2020 Jon Beniston, M7RCE //
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// //
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// This program is free software; you can redistribute it and/or modify //
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// it under the terms of the GNU General Public License as published by //
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// the Free Software Foundation as version 3 of the License, or //
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// (at your option) any later version. //
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// //
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// This program is distributed in the hope that it will be useful, //
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// but WITHOUT ANY WARRANTY; without even the implied warranty of //
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
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// GNU General Public License V3 for more details. //
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// //
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// You should have received a copy of the GNU General Public License //
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// along with this program. If not, see <http://www.gnu.org/licenses/>. //
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///////////////////////////////////////////////////////////////////////////////////
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#define BOOST_CHRONO_HEADER_ONLY
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#include <boost/chrono/chrono.hpp>
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#include <QDebug>
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#include "util/db.h"
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#include "adsbdemodreport.h"
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#include "adsbdemodsink.h"
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#include "adsbdemodsinkworker.h"
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#include "adsbdemodsettings.h"
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#include "adsb.h"
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MESSAGE_CLASS_DEFINITION(ADSBDemodSinkWorker::MsgConfigureADSBDemodSinkWorker, Message)
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void ADSBDemodSinkWorker::run()
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{
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int readBuffer = 0;
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// Acquire first buffer
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m_sink->m_bufferRead[readBuffer].acquire();
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// Start recording how much time is spent processing in this method
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boost::chrono::steady_clock::time_point startPoint = boost::chrono::steady_clock::now();
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// Check for updated settings
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handleInputMessages();
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// samplesPerBit is only changed when the thread is stopped
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int samplesPerBit = m_settings.m_samplesPerBit;
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int samplesPerFrame = samplesPerBit*(ADS_B_PREAMBLE_BITS+ADS_B_ES_BITS);
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int samplesPerChip = samplesPerBit/ADS_B_CHIPS_PER_BIT;
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qDebug() << "ADSBDemodSinkWorker:: running with"
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<< " samplesPerFrame: " << samplesPerFrame
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<< " samplesPerChip: " << samplesPerChip
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<< " samplesPerBit: " << samplesPerBit
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<< " correlateFullPreamble: " << m_settings.m_correlateFullPreamble
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<< " correlationScale: " << m_correlationScale
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<< " correlationThreshold: " << m_settings.m_correlationThreshold;
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int readIdx = m_sink->m_samplesPerFrame - 1;
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while (true)
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{
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int startIdx = readIdx;
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// Correlate received signal with expected preamble
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// chip+ indexes are 0, 2, 7, 9
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// correlating over first 6 bits gives a reduction in per-sample
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// processing, but more than doubles the number of false matches
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Real preambleCorrelationOnes = 0.0;
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Real preambleCorrelationZeros = 0.0;
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if (m_settings.m_correlateFullPreamble)
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{
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for (int i = 0; i < samplesPerChip; i++)
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{
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preambleCorrelationOnes += m_sink->m_sampleBuffer[readBuffer][startIdx + 0*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 1*samplesPerChip + i];
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preambleCorrelationOnes += m_sink->m_sampleBuffer[readBuffer][startIdx + 2*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 3*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 4*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 5*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 6*samplesPerChip + i];
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preambleCorrelationOnes += m_sink->m_sampleBuffer[readBuffer][startIdx + 7*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 8*samplesPerChip + i];
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preambleCorrelationOnes += m_sink->m_sampleBuffer[readBuffer][startIdx + 9*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 10*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 11*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 12*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 13*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 14*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 15*samplesPerChip + i];
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}
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}
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else
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{
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for (int i = 0; i < samplesPerChip; i++)
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{
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preambleCorrelationOnes += m_sink->m_sampleBuffer[readBuffer][startIdx + 0*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 1*samplesPerChip + i];
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preambleCorrelationOnes += m_sink->m_sampleBuffer[readBuffer][startIdx + 2*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 3*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 4*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 5*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 6*samplesPerChip + i];
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preambleCorrelationOnes += m_sink->m_sampleBuffer[readBuffer][startIdx + 7*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 8*samplesPerChip + i];
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preambleCorrelationOnes += m_sink->m_sampleBuffer[readBuffer][startIdx + 9*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 10*samplesPerChip + i];
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preambleCorrelationZeros += m_sink->m_sampleBuffer[readBuffer][startIdx + 11*samplesPerChip + i];
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}
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}
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// Use the ratio of ones power over zeros power, as we don't care how powerful the signal
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// is, just whether there is a good correlation with the preamble. The absolute value varies
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// too much with different radios, AGC settings and and the noise floor is not constant
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// (E.g: it's quite possible to receive multiple frames simultaneously, so we don't
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// want a maximum threshold for the zeros, as a weaker signal may transmit 1s in
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// a stronger signals 0 chip position. Similarly a strong signal in an adjacent
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// channel may cause AGC to reduce gain, reducing the ampltiude of an otherwise
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// strong signal, as well as the noise floor)
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// The threshold accounts for the different number of zeros and ones in the preamble
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// If the sum of ones is exactly 0, it's probably no signal
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Real preambleCorrelation = preambleCorrelationOnes/preambleCorrelationZeros; // without one/zero ratio correction
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if ((preambleCorrelation > m_correlationThresholdLinear) && (preambleCorrelationOnes != 0.0f))
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{
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int firstIdx = startIdx;
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m_demodStats.m_correlatorMatches++;
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// Skip over preamble
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startIdx += samplesPerBit*ADS_B_PREAMBLE_BITS;
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// Demodulate waveform to bytes
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unsigned char data[ADS_B_ES_BYTES];
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int byteIdx = 0;
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int currentBit;
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unsigned char currentByte = 0;
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int df;
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for (int bit = 0; bit < ADS_B_ES_BITS; bit++)
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{
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// PPM (Pulse position modulation) - Each bit spreads to two chips, 1->10, 0->01
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// Determine if bit is 1 or 0, by seeing which chip has largest combined energy over the sampling period
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Real oneSum = 0.0f;
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Real zeroSum = 0.0f;
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for (int i = 0; i < samplesPerChip; i++)
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{
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oneSum += m_sink->m_sampleBuffer[readBuffer][startIdx+i];
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zeroSum += m_sink->m_sampleBuffer[readBuffer][startIdx+samplesPerChip+i];
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}
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currentBit = oneSum > zeroSum;
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startIdx += samplesPerBit;
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// Convert bit to bytes - MSB first
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currentByte |= currentBit << (7-(bit & 0x7));
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if ((bit & 0x7) == 0x7)
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{
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data[byteIdx++] = currentByte;
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currentByte = 0;
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// Don't try to demodulate any further, if this isn't an ADS-B frame
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// to help reduce processing overhead
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if (!m_settings.m_demodModeS && (bit == 7))
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{
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df = ((data[0] >> 3) & ADS_B_DF_MASK);
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if ((df != 17) && (df != 18))
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break;
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}
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}
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}
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// Is ADS-B?
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df = ((data[0] >> 3) & ADS_B_DF_MASK);
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if ((df == 17) || (df == 18))
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{
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m_crc.init();
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unsigned int parity = (data[11] << 16) | (data[12] << 8) | data[13]; // Parity / CRC
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m_crc.calculate(data, ADS_B_ES_BYTES-3);
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if (parity == m_crc.get())
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{
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// Got a valid frame
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m_demodStats.m_adsbFrames++;
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// Get 24-bit ICAO and save in hash of ICAOs that have been seen
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unsigned icao = ((data[1] & 0xff) << 16) | ((data[2] & 0xff) << 8) | (data[3] & 0xff);
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m_icaos.insert(icao, true);
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// Don't try to re-demodulate the same frame
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// We could possibly allow a partial overlap here
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readIdx += (ADS_B_ES_BITS+ADS_B_PREAMBLE_BITS)*ADS_B_CHIPS_PER_BIT*samplesPerChip - 1;
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// Pass to GUI
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if (m_sink->getMessageQueueToGUI())
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{
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ADSBDemodReport::MsgReportADSB *msg = ADSBDemodReport::MsgReportADSB::create(
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QByteArray((char*)data, sizeof(data)),
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preambleCorrelation * m_correlationScale,
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preambleCorrelationOnes / samplesPerChip,
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rxDateTime(firstIdx, readBuffer),
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m_crc.get());
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m_sink->getMessageQueueToGUI()->push(msg);
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}
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// Pass to worker to feed to other servers
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if (m_sink->getMessageQueueToWorker())
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{
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ADSBDemodReport::MsgReportADSB *msg = ADSBDemodReport::MsgReportADSB::create(
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QByteArray((char*)data, sizeof(data)),
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preambleCorrelation * m_correlationScale,
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preambleCorrelationOnes / samplesPerChip,
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rxDateTime(firstIdx, readBuffer),
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m_crc.get());
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m_sink->getMessageQueueToWorker()->push(msg);
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}
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}
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else
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m_demodStats.m_crcFails++;
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}
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else if (m_settings.m_demodModeS)
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{
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int bytes;
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// Determine number of bytes in frame depending on downlink format
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if ((df == 0) || (df == 4) || (df == 5) || (df == 11)) {
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bytes = 56/8;
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} else if ((df == 16) || (df == 20) || (df == 21) || (df >= 24)) {
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bytes = 112/8;
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} else {
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bytes = 0;
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}
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if (bytes > 0)
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{
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// Extract received parity
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int parity = (data[bytes-3] << 16) | (data[bytes-2] << 8) | data[bytes-1];
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// Calculate CRC on received frame
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m_crc.init();
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m_crc.calculate(data, bytes-3);
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int crc = m_crc.get();
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// DF4 / DF5 / DF20 / DF21 have ICAO address XORed in to parity.
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// Extract ICAO from parity and see if it matches an aircraft we've already
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// received an ADS-B frame from
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if ((df == 4) || (df == 5) || (df == 20) || (df == 21))
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{
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unsigned icao = (parity ^ crc) & 0xffffff;
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if (m_icaos.contains(icao)) {
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crc ^= icao;
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}
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}
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// For DF11, the last 7 bits may have an address/interogration identifier (II)
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// XORed in, so we ignore those bits
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if ((parity == crc) || ((df == 11) && ((parity & 0xffff80) == (crc & 0xffff80))))
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{
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m_demodStats.m_modesFrames++;
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// Pass to GUI (only pass formats it can decode)
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if (m_sink->getMessageQueueToGUI() && ((df == 4) || (df == 5) || (df == 20) || (df == 21)))
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{
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ADSBDemodReport::MsgReportADSB *msg = ADSBDemodReport::MsgReportADSB::create(
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QByteArray((char*)data, bytes),
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preambleCorrelation * m_correlationScale,
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preambleCorrelationOnes / samplesPerChip,
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rxDateTime(firstIdx, readBuffer),
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m_crc.get());
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m_sink->getMessageQueueToGUI()->push(msg);
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}
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// Pass to worker to feed to other servers
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if (m_sink->getMessageQueueToWorker())
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{
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ADSBDemodReport::MsgReportADSB *msg = ADSBDemodReport::MsgReportADSB::create(
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QByteArray((char*)data, bytes),
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preambleCorrelation * m_correlationScale,
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preambleCorrelationOnes / samplesPerChip,
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rxDateTime(firstIdx, readBuffer),
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m_crc.get());
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m_sink->getMessageQueueToWorker()->push(msg);
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}
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}
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else
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{
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m_demodStats.m_crcFails++;
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}
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}
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else
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m_demodStats.m_typeFails++;
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}
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else
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m_demodStats.m_typeFails++;
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}
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readIdx++;
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if (readIdx > m_sink->m_bufferSize - samplesPerFrame)
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{
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int nextBuffer = readBuffer+1;
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if (nextBuffer >= m_sink->m_buffers)
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nextBuffer = 0;
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// Update amount of time spent processing (don't include time spend in acquire)
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boost::chrono::duration<double> sec = boost::chrono::steady_clock::now() - startPoint;
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m_demodStats.m_demodTime += sec.count();
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m_demodStats.m_feedTime = m_sink->m_feedTime;
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// Send stats to GUI
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if (m_sink->getMessageQueueToGUI())
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{
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ADSBDemodReport::MsgReportDemodStats *msg = ADSBDemodReport::MsgReportDemodStats::create(m_demodStats);
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m_sink->getMessageQueueToGUI()->push(msg);
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}
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if (!isInterruptionRequested())
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{
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// Get next buffer
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m_sink->m_bufferRead[nextBuffer].acquire();
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// Check for updated settings
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handleInputMessages();
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// Resume timing how long we are processing
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startPoint = boost::chrono::steady_clock::now();
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int samplesRemaining = m_sink->m_bufferSize - readIdx;
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if (samplesRemaining > 0)
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{
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// Copy remaining samples, to start of next buffer
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memcpy(&m_sink->m_sampleBuffer[nextBuffer][samplesPerFrame - 1 - samplesRemaining], &m_sink->m_sampleBuffer[readBuffer][readIdx], samplesRemaining*sizeof(Real));
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readIdx = samplesPerFrame - 1 - samplesRemaining;
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}
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else
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{
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readIdx = samplesPerFrame - 1;
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}
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m_sink->m_bufferWrite[readBuffer].release();
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readBuffer = nextBuffer;
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}
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else
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{
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// Use a break to avoid testing a condition in the main loop
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break;
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}
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}
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}
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}
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void ADSBDemodSinkWorker::handleInputMessages()
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{
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Message* message;
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while ((message = m_inputMessageQueue.pop()) != nullptr)
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{
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if (MsgConfigureADSBDemodSinkWorker::match(*message))
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{
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MsgConfigureADSBDemodSinkWorker* cfg = (MsgConfigureADSBDemodSinkWorker*)message;
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ADSBDemodSettings settings = cfg->getSettings();
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bool force = cfg->getForce();
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if (settings.m_correlateFullPreamble) {
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m_correlationScale = 3.0;
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} else {
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m_correlationScale = 2.0;
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}
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if ((m_settings.m_correlationThreshold != settings.m_correlationThreshold) || force)
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{
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m_correlationThresholdLinear = CalcDb::powerFromdB(settings.m_correlationThreshold);
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m_correlationThresholdLinear /= m_correlationScale;
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qDebug() << "m_correlationThresholdLinear: " << m_correlationThresholdLinear;
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}
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m_settings = settings;
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delete message;
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}
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}
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}
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QDateTime ADSBDemodSinkWorker::rxDateTime(int firstIdx, int readBuffer) const
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{
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const qint64 samplesPerSecondMSec = ADS_B_BITS_PER_SECOND * m_settings.m_samplesPerBit / 1000;
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const qint64 offsetMSec = (firstIdx - m_sink->m_samplesPerFrame - 1) / samplesPerSecondMSec;
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return m_sink->m_bufferFirstSampleDateTime[readBuffer].addMSecs(offsetMSec);
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}
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